2023-07-27 13:45:35 +03:00
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// Copyright 2023 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package blobpool
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import (
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"container/heap"
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mrand "math/rand"
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"testing"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/params"
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"github.com/holiman/uint256"
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)
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var rand = mrand.New(mrand.NewSource(1))
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// verifyHeapInternals verifies that all accounts present in the index are also
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// present in the heap and internals are consistent across various indices.
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func verifyHeapInternals(t *testing.T, evict *evictHeap) {
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t.Helper()
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// Ensure that all accounts are present in the heap and no extras
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seen := make(map[common.Address]struct{})
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for i, addr := range evict.addrs {
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seen[addr] = struct{}{}
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if _, ok := evict.metas[addr]; !ok {
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t.Errorf("heap contains unexpected address at slot %d: %v", i, addr)
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}
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}
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for addr := range evict.metas {
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if _, ok := seen[addr]; !ok {
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t.Errorf("heap is missing required address %v", addr)
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}
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}
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if len(evict.addrs) != len(evict.metas) {
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t.Errorf("heap size %d mismatches metadata size %d", len(evict.addrs), len(evict.metas))
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}
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// Ensure that all accounts are present in the heap order index and no extras
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have := make([]common.Address, len(evict.index))
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for addr, i := range evict.index {
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have[i] = addr
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}
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if len(have) != len(evict.addrs) {
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t.Errorf("heap index size %d mismatches heap size %d", len(have), len(evict.addrs))
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}
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for i := 0; i < len(have) && i < len(evict.addrs); i++ {
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if have[i] != evict.addrs[i] {
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t.Errorf("heap index for slot %d mismatches: have %v, want %v", i, have[i], evict.addrs[i])
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}
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}
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}
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// Tests that the price heap can correctly sort its set of transactions based on
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// an input base- and blob fee.
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func TestPriceHeapSorting(t *testing.T) {
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tests := []struct {
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execTips []uint64
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execFees []uint64
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blobFees []uint64
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basefee uint64
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blobfee uint64
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order []int
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}{
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// If everything is above the basefee and blobfee, order by miner tip
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{
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execTips: []uint64{1, 0, 2},
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execFees: []uint64{1, 2, 3},
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blobFees: []uint64{3, 2, 1},
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basefee: 0,
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blobfee: 0,
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order: []int{1, 0, 2},
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},
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// If only basefees are used (blob fee matches with network), return the
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// ones the furthest below the current basefee, splitting same ones with
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// the tip. Anything above the basefee should be split by tip.
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{
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execTips: []uint64{100, 50, 100, 50, 1, 2, 3},
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execFees: []uint64{1000, 1000, 500, 500, 2000, 2000, 2000},
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blobFees: []uint64{0, 0, 0, 0, 0, 0, 0},
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basefee: 1999,
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blobfee: 0,
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order: []int{3, 2, 1, 0, 4, 5, 6},
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},
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// If only blobfees are used (base fee matches with network), return the
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// ones the furthest below the current blobfee, splitting same ones with
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// the tip. Anything above the blobfee should be split by tip.
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{
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execTips: []uint64{100, 50, 100, 50, 1, 2, 3},
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execFees: []uint64{0, 0, 0, 0, 0, 0, 0},
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blobFees: []uint64{1000, 1000, 500, 500, 2000, 2000, 2000},
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basefee: 0,
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blobfee: 1999,
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order: []int{3, 2, 1, 0, 4, 5, 6},
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},
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// If both basefee and blobfee is specified, sort by the larger distance
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// of the two from the current network conditions, splitting same (loglog)
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// ones via the tip.
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//
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// Basefee: 1000
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// Blobfee: 100
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//
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// Tx #0: (800, 80) - 2 jumps below both => priority -1
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// Tx #1: (630, 63) - 4 jumps below both => priority -2
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// Tx #2: (800, 63) - 2 jumps below basefee, 4 jumps below blobfee => priority -2 (blob penalty dominates)
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// Tx #3: (630, 80) - 4 jumps below basefee, 2 jumps below blobfee => priority -2 (base penalty dominates)
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//
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// Txs 1, 2, 3 share the same priority, split via tip, prefer 0 as the best
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{
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execTips: []uint64{1, 2, 3, 4},
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execFees: []uint64{800, 630, 800, 630},
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blobFees: []uint64{80, 63, 63, 80},
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basefee: 1000,
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blobfee: 100,
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order: []int{1, 2, 3, 0},
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},
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}
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for i, tt := range tests {
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// Create an index of the transactions
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index := make(map[common.Address][]*blobTxMeta)
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for j := byte(0); j < byte(len(tt.execTips)); j++ {
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addr := common.Address{j}
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var (
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execTip = uint256.NewInt(tt.execTips[j])
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execFee = uint256.NewInt(tt.execFees[j])
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blobFee = uint256.NewInt(tt.blobFees[j])
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basefeeJumps = dynamicFeeJumps(execFee)
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blobfeeJumps = dynamicFeeJumps(blobFee)
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)
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index[addr] = []*blobTxMeta{{
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id: uint64(j),
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size: 128 * 1024,
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nonce: 0,
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execTipCap: execTip,
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execFeeCap: execFee,
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blobFeeCap: blobFee,
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basefeeJumps: basefeeJumps,
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blobfeeJumps: blobfeeJumps,
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evictionExecTip: execTip,
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evictionExecFeeJumps: basefeeJumps,
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evictionBlobFeeJumps: blobfeeJumps,
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}}
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}
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// Create a price heap and check the pop order
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priceheap := newPriceHeap(uint256.NewInt(tt.basefee), uint256.NewInt(tt.blobfee), index)
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verifyHeapInternals(t, priceheap)
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for j := 0; j < len(tt.order); j++ {
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if next := heap.Pop(priceheap); int(next.(common.Address)[0]) != tt.order[j] {
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t.Errorf("test %d, item %d: order mismatch: have %d, want %d", i, j, next.(common.Address)[0], tt.order[j])
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} else {
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delete(index, next.(common.Address)) // remove to simulate a correct pool for the test
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}
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verifyHeapInternals(t, priceheap)
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}
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}
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}
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// Benchmarks reheaping the entire set of accounts in the blob pool.
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func BenchmarkPriceHeapReinit1MB(b *testing.B) { benchmarkPriceHeapReinit(b, 1024*1024) }
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func BenchmarkPriceHeapReinit10MB(b *testing.B) { benchmarkPriceHeapReinit(b, 10*1024*1024) }
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func BenchmarkPriceHeapReinit100MB(b *testing.B) { benchmarkPriceHeapReinit(b, 100*1024*1024) }
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func BenchmarkPriceHeapReinit1GB(b *testing.B) { benchmarkPriceHeapReinit(b, 1024*1024*1024) }
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func BenchmarkPriceHeapReinit10GB(b *testing.B) { benchmarkPriceHeapReinit(b, 10*1024*1024*1024) }
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func BenchmarkPriceHeapReinit25GB(b *testing.B) { benchmarkPriceHeapReinit(b, 25*1024*1024*1024) }
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func BenchmarkPriceHeapReinit50GB(b *testing.B) { benchmarkPriceHeapReinit(b, 50*1024*1024*1024) }
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func BenchmarkPriceHeapReinit100GB(b *testing.B) { benchmarkPriceHeapReinit(b, 100*1024*1024*1024) }
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func benchmarkPriceHeapReinit(b *testing.B, datacap uint64) {
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// Calculate how many unique transactions we can fit into the provided disk
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// data cap
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blobs := datacap / (params.BlobTxBytesPerFieldElement * params.BlobTxFieldElementsPerBlob)
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// Create a random set of transactions with random fees. Use a separate account
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// for each transaction to make it worse case.
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index := make(map[common.Address][]*blobTxMeta)
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for i := 0; i < int(blobs); i++ {
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var addr common.Address
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rand.Read(addr[:])
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var (
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execTip = uint256.NewInt(rand.Uint64())
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execFee = uint256.NewInt(rand.Uint64())
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blobFee = uint256.NewInt(rand.Uint64())
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basefeeJumps = dynamicFeeJumps(execFee)
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blobfeeJumps = dynamicFeeJumps(blobFee)
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)
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index[addr] = []*blobTxMeta{{
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id: uint64(i),
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size: 128 * 1024,
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nonce: 0,
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execTipCap: execTip,
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execFeeCap: execFee,
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blobFeeCap: blobFee,
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basefeeJumps: basefeeJumps,
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blobfeeJumps: blobfeeJumps,
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evictionExecTip: execTip,
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evictionExecFeeJumps: basefeeJumps,
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evictionBlobFeeJumps: blobfeeJumps,
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}}
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}
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// Create a price heap and reinit it over and over
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heap := newPriceHeap(uint256.NewInt(rand.Uint64()), uint256.NewInt(rand.Uint64()), index)
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basefees := make([]*uint256.Int, b.N)
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blobfees := make([]*uint256.Int, b.N)
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for i := 0; i < b.N; i++ {
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basefees[i] = uint256.NewInt(rand.Uint64())
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blobfees[i] = uint256.NewInt(rand.Uint64())
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}
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b.ResetTimer()
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b.ReportAllocs()
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for i := 0; i < b.N; i++ {
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heap.reinit(basefees[i], blobfees[i], true)
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}
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}
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// Benchmarks overflowing the heap over and over (add and then drop).
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func BenchmarkPriceHeapOverflow1MB(b *testing.B) { benchmarkPriceHeapOverflow(b, 1024*1024) }
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func BenchmarkPriceHeapOverflow10MB(b *testing.B) { benchmarkPriceHeapOverflow(b, 10*1024*1024) }
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func BenchmarkPriceHeapOverflow100MB(b *testing.B) { benchmarkPriceHeapOverflow(b, 100*1024*1024) }
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func BenchmarkPriceHeapOverflow1GB(b *testing.B) { benchmarkPriceHeapOverflow(b, 1024*1024*1024) }
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func BenchmarkPriceHeapOverflow10GB(b *testing.B) { benchmarkPriceHeapOverflow(b, 10*1024*1024*1024) }
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func BenchmarkPriceHeapOverflow25GB(b *testing.B) { benchmarkPriceHeapOverflow(b, 25*1024*1024*1024) }
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func BenchmarkPriceHeapOverflow50GB(b *testing.B) { benchmarkPriceHeapOverflow(b, 50*1024*1024*1024) }
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func BenchmarkPriceHeapOverflow100GB(b *testing.B) { benchmarkPriceHeapOverflow(b, 100*1024*1024*1024) }
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func benchmarkPriceHeapOverflow(b *testing.B, datacap uint64) {
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// Calculate how many unique transactions we can fit into the provided disk
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// data cap
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blobs := datacap / (params.BlobTxBytesPerFieldElement * params.BlobTxFieldElementsPerBlob)
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// Create a random set of transactions with random fees. Use a separate account
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// for each transaction to make it worse case.
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index := make(map[common.Address][]*blobTxMeta)
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for i := 0; i < int(blobs); i++ {
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var addr common.Address
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rand.Read(addr[:])
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var (
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execTip = uint256.NewInt(rand.Uint64())
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execFee = uint256.NewInt(rand.Uint64())
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blobFee = uint256.NewInt(rand.Uint64())
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basefeeJumps = dynamicFeeJumps(execFee)
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blobfeeJumps = dynamicFeeJumps(blobFee)
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)
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index[addr] = []*blobTxMeta{{
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id: uint64(i),
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size: 128 * 1024,
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nonce: 0,
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execTipCap: execTip,
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execFeeCap: execFee,
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blobFeeCap: blobFee,
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basefeeJumps: basefeeJumps,
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blobfeeJumps: blobfeeJumps,
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evictionExecTip: execTip,
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evictionExecFeeJumps: basefeeJumps,
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evictionBlobFeeJumps: blobfeeJumps,
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}}
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}
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// Create a price heap and overflow it over and over
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evict := newPriceHeap(uint256.NewInt(rand.Uint64()), uint256.NewInt(rand.Uint64()), index)
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var (
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addrs = make([]common.Address, b.N)
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metas = make([]*blobTxMeta, b.N)
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)
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for i := 0; i < b.N; i++ {
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rand.Read(addrs[i][:])
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var (
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execTip = uint256.NewInt(rand.Uint64())
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execFee = uint256.NewInt(rand.Uint64())
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blobFee = uint256.NewInt(rand.Uint64())
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basefeeJumps = dynamicFeeJumps(execFee)
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blobfeeJumps = dynamicFeeJumps(blobFee)
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)
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metas[i] = &blobTxMeta{
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id: uint64(int(blobs) + i),
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size: 128 * 1024,
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nonce: 0,
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execTipCap: execTip,
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execFeeCap: execFee,
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blobFeeCap: blobFee,
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basefeeJumps: basefeeJumps,
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blobfeeJumps: blobfeeJumps,
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evictionExecTip: execTip,
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evictionExecFeeJumps: basefeeJumps,
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evictionBlobFeeJumps: blobfeeJumps,
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}
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}
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b.ResetTimer()
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b.ReportAllocs()
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for i := 0; i < b.N; i++ {
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index[addrs[i]] = []*blobTxMeta{metas[i]}
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heap.Push(evict, addrs[i])
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drop := heap.Pop(evict)
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delete(index, drop.(common.Address))
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}
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}
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